Publication detail

Complex Optimization of Yagi Antenna Using Polytope Algorithms

OTEVŘEL, V., RAIDA, Z.

Original Title

Complex Optimization of Yagi Antenna Using Polytope Algorithms

English Title

Complex Optimization of Yagi Antenna Using Polytope Algorithms

Type

conference paper

Language

en

Original Abstract

The paper presents a single-objective optimization of a nine-part Yagi antenna using the MCL2 algorithm. The optimization of the antenna is performed with respect to their input impedance, gain, and radiation pattern. The reached results are confronted with ones obtained by the generational genetic algorithms (GA) in the end. The application of the originally developed polytope algorithm – the MCL2 – to the complex optimization of a Yagi antenna is the original contribution of this paper.

English abstract

The paper presents a single-objective optimization of a nine-part Yagi antenna using the MCL2 algorithm. The optimization of the antenna is performed with respect to their input impedance, gain, and radiation pattern. The reached results are confronted with ones obtained by the generational genetic algorithms (GA) in the end. The application of the originally developed polytope algorithm – the MCL2 – to the complex optimization of a Yagi antenna is the original contribution of this paper.

Keywords

polytope algorithms, genetic algorithms, method of chaos-lines, Yagi antenna

RIV year

2003

Released

23.09.2003

Publisher

University of Pardubice

Location

Pardubice (Czech Republic)

ISBN

80-86582-09-4

Book

Proceedings of the Conference on Microwave Techniques COMITE 2003

Pages from

61

Pages to

64

Pages count

4

BibTex


@inproceedings{BUT9076,
  author="Viktor {Otevřel} and Zbyněk {Raida}",
  title="Complex Optimization of Yagi Antenna Using Polytope Algorithms",
  annote="The paper presents a single-objective optimization of a nine-part Yagi antenna using the MCL2 algorithm. The optimization of the antenna is performed with respect to their input impedance, gain, and radiation pattern. The reached results are confronted with ones obtained by the generational genetic algorithms (GA) in the end. The application of the originally developed polytope algorithm – the MCL2 – to the complex optimization of a Yagi antenna is the original contribution of this paper.",
  address="University of Pardubice",
  booktitle="Proceedings of the Conference on Microwave Techniques COMITE 2003",
  chapter="9076",
  institution="University of Pardubice",
  year="2003",
  month="september",
  pages="61",
  publisher="University of Pardubice",
  type="conference paper"
}